Journal
CHEMICAL ENGINEERING JOURNAL
Volume 417, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2020.128093
Keywords
Electromagnetic wave absorption; Hollow double-shell structure; Broad absorption bandwidth; Impedance matching
Categories
Funding
- National Natural Science Foundation of China [51971008, U1832138, 51920105001, 51671010]
- Fundamental Research Funds for the Central Universities
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In this study, a hollow double-shell structured magnetoelectric composite was prepared to broaden the effective absorption bandwidth of EMW absorbing materials. By controlling the pyrolysis temperature, the properties of the composite can be tuned to achieve a wide absorption bandwidth.
Current electromagnetic wave (EMW) absorbing materials generally face the problem of narrow absorption bandwidth, which is the bottleneck in practical applications. Exploring new strategies and designing new architectures to overcome this problem is urgent but challenging. Here, a hollow double-shell structured magnetoelectric composite, composed of an internal hollow cavity, a middle SiO2 matching shell and an outer Co-C porous shell (Void@SiO2@Co-C), was prepared by assembling metal-organic-framework particles on hollow SiO2 cavity and pyrolysis. The multiple magnetic resonances, magneto-electric interface polarization, defect dipole polarization and conductivity of the composite can be well tuned by controlling the pyrolysis temperature. In particular, the hollow SiO2 cavity plays an essential role in improving impedance matching. Benefitting from the synergistic effect between hollow SiO2 cavity, porous carbon shell and Co particles, the Void@SiO2@Co-C composite exhibits a broad effective absorption bandwidth above 7 GHz at a thin thickness of 2.2 mm, which is superior to other Co-C composites (less than 6 GHz). This work provides an effective solution for broadening the EMW absorption bandwidth.
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